EC:2.7.7.48 - FACTA Search

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Query: EC:2.7.7.48 (transcriptase)
9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reverse transcriptase from the human immunodeficiency virus type I (HIV-1) was expressed in E. coli and purified to near homogeneity. The enzyme was shown to contain reverse transcriptase, DNA polymerase and ribonuclease H activities. The DNA polymerase activity converted singly-primed phi X174 (+) DNA into the double-stranded form. Two third of the replication product is ligatable to covalently closed circular DNA (RFIV-form DNA) indicating that DNA synthesis by HIV reverse transcriptase can proceed until the enzyme matches the 5'-end of a pre-existing primer molecule. The in vitro accuracy of HIV reverse transcriptase was measured with the phi X174am16 reversion assay to be 1/7,400. Reversion rates for the individual mispairs were determined from pool bias studies to be 1/8,000 for the dGMP:T template mismatch, 1/35,000 for the dGMP:A template mismatch, 1/45,000 for the dAMP:G template mismatch, 1/73,000 for the dCMP:T template mispair, 1/140,000 for the dCMP:A template mispair, and 1/180,000 for the dGMP:G template mismatch. The dTMP:T template mispair was below the detection limit of the assay indicating a reversion rate of less than 1/300,000 for this particular mispair.
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PMID:Fidelity of human immunodeficiency virus type I reverse transcriptase in copying natural DNA. 246 38

The 330 residue-long N-terminal domains (NTDs) of beta and beta' subunits of the Escherichia coli RNA polymerase (RPase) core enzyme were found to be significantly homologous to the entire length of its alpha subunit. The C-terminal domains (CTDs) of the RPase beta subunit and DNA primase (dnaG protein) were not only strongly homologous to each other but also considerably homologous to the RPase alpha, suggesting that an alpha subunit-like enzyme must have been commonly ancestral to core enzyme subunits and primase. The N-terminal region (NTR) of RPase alpha was also found to show significant homologies with NTRs of the E. coli EF-Tu and F1-ATPase alpha subunit, and a possible weak homology with ribosomal protein L3. A most important finding was that the C-terminal regions (CTRs) of DNA polymerase (DPase) I, T7 phage DPase and MS2 phage RNA replicase beta subunit are closely homologous with one another. These CTRs showed considerable homologies to RPase alpha NTD and RPase beta CTD. These conclusions are based on statistical evaluations of homologies in base and/or amino acid sequence alignments.
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PMID:Amino acid and nucleotide sequence homologies among E. coli RNA polymerase core enzyme subunits, DNA primase, elongation factor Tu, F1-ATPase alpha, ribosomal protein L3, DNA polymerase I, T7 phage DNA polymerase, and MS2 phage RNA replicase beta subunit. 286 46

Alignment of the amino acid (aa) sequences of T7 phage DNA polymerase (DPase), E. coli DNA polymerase I (Pol I) and MS2 phage RNA replicase beta subunit (MS2 Repl) were established by computer-aided methods. The results showed that the entire length (aa's 16-704) of T7 DPase is homologous to Pol I aa's 207-928(C-term) with 21.5% aa identity, and that domains I (aa's-1-311) and II (312-451(C-term] were found to be homologous to each other and to N-terminal region of T7 DPase (aa's 1-250). Thus these enzymes and domains are homologous to one another and must have evolved from a co-ancestral enzyme.
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PMID:Computer-aided detection and alignment of weakly homologous amino acid sequences of RNA replicase beta (MS2 phage) and DNA polymerases (T7 phage and E. coli). 306 16

Reverse transcriptase from avian retrovirus has a physically associated DNA endonuclease with novel substrate and cofactor requirements. A similar endonuclease activity copurifies with pp32, a protein from viral cores that has been identified with the non-alpha region of the beta subunit of reverse transcriptase. Several temperature-sensitive mutants of avian retrovirus with thermolabile DNA polymerase were tested for thermal sensitivity of their DNA endonuclease activity. Two pol mutants of Rous sarcoma virus, ts335 and ts337, had thermolabile DNA endonuclease; a temperature-resistant revertant of ts335 had a heat-stable DNA endonuclease. DNA endonuclease is therefore a product of the pol gene and an integral part of the reverse transcriptase. A second class of pol mutants, typified by ts568 and ts553, had thermolabile DNA polymerase, but heat-stable DNA endonuclease.
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PMID:Virus-coded DNA endonuclease from avian retrovirus. 616 35

Telomerase is a ribonucleoprotein (RNP) DNA polymerase involved in telomere synthesis. A short sequence within the telomerase RNA component provides a template for de novo addition of the G-rich strand of a telomeric simple sequence repeat onto chromosome termini. In vitro, telomerase can elongate single-stranded DNA primers processively: one primer can be extended by multiple rounds of template copying before product dissociation. Telomerase will incorporate dNTPs or ddNTPs and will elongate any G-rich, single-stranded primer DNA. In this report, we show that Tetrahymena telomerase was able to incorporate a ribonucleotide, rGTP, into product polynucleotide. Synthesis of the product [d(TT)r(GGGG)]n was processive, suggesting that the chimeric product remained associated with the enzyme both at the active site and at a second, previously characterized, template-independent product binding site. As predicted by this finding, RNA-containing oligonucleotides served as primers for elongation. More than 3 nt of RNA at a primer 3' end decreased the quantity of product synthesis but increased the affinity of the primer for telomerase. Thus, RNA-containing primers were effective as competitive inhibitors of DNA primer elongation by telomerase. These results support the possible evolutionary origin of telomerase as an RNA-dependent RNA polymerase.
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PMID:Utilization of ribonucleotides and RNA primers by Tetrahymena telomerase. 748 31

We show that the reverse transcriptase (RT) encoded by the Mauriceville mitochondrial plasmid of Neurospora closely resembles viral RNA-dependent RNA polymerases in initiating cDNA synthesis opposite the penultimate C residue of a 3' tRNA-like structure and has the unprecedented ability for a DNA polymerase to initiate DNA synthesis at a specific site in a natural template without a primer. The Mauriceville plasmid enzyme can also use DNA or RNA primers in a manner suggesting how a primitive RT could have evolved from an RNA-dependent RNA polymerase into retroviral and other types of RTs. The characteristics of the Mauriceville plasmid RT suggest that it may be related to the progenitor of present-day RTs and DNA polymerases.
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PMID:The Mauriceville plasmid reverse transcriptase can initiate cDNA synthesis de novo and may be related to reverse transcriptase and DNA polymerase progenitor. 750 2

We have identified a T7 RNA polymerase (RNAP) mutant that efficiently utilizes deoxyribonucleoside triphosphates. In vitro this mutant will synthesize RNA, DNA or 'transcripts' of mixed dNMP/rNMP composition depending on the mix of NTPs present in the synthesis reaction. The mutation is conservative, changes Tyr639 within the active site to phenylalanine and does not affect promoter specificity or overall activity. Non-conservative mutations of this tyrosine also reduce discrimination between deoxyribo- and ribonucleoside triphosphates, but these mutations also cause large activity reductions. Of 26 mutations of other residues in and around the active site examined none showed marked effects on rNTP/dNTP discrimination. Mutations of the corresponding tyrosine in DNA polymerase (DNAP) I increase miscoding, though effects on dNTP/rNTP discrimination for the DNAP I mutations have not been reported. This conserved tyrosine may therefore play a similar role in many polymerases by sensing incorrect geometry in the structure of the substrate/template/product due to inappropriate substrate structure or mismatches. T7 RNAP can use RNA templates as well as DNA templates and is capable of both primer extension and de novo initiation. The Y639F mutant retains the ability to use RNA or DNA templates. Thus this mutant can display de novo initiated or primed DNA-directed DNA polymerase, reverse transcriptase, RNA-directed RNA polymerase or DNA-directed RNA polymerase activities depending simply on the templates and substrates presented to it in the synthesis reaction.
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PMID:A mutant T7 RNA polymerase as a DNA polymerase. 755 4

A reverse transcriptase activity has been detected in potato mitochondria using special RNAs as templates: a bacterial RNA coding for neomycin phosphotransferase (neo pa RNA) and a Neurospora crassa mitochondrial RNA (184 nt RNA). Surprisingly, no exogenous primer addition was required. These RNA templates share a primary and secondary structure similar to the T psi CG loop of tRNAs that could constitute the recognition site for the enzyme. Reverse transcriptase activity was inhibited by ddTTP, ethidium bromide and aphidicolin, while potato mitochondrial DNA polymerase was not inhibited by aphidicolin indicating that these activities correspond to distinct enzymes. A conserved sequence of reverse transcriptases was detected in potato mitochondrial DNA suggesting that this enzyme could be mitochondrially encoded.
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PMID:A reverse transcriptase activity in potato mitochondria. 875 99

The genetically defined human cytomegalovirus (HCMV) lytic-phase replicator, oriLyt, comprises more than 2 kb in a structurally complex region that spans a variety of potential transcription control signals. Several transcripts originate within or cross oriLyt, and we are studying these oriLyt transcription units to determine whether they participate in initiating or regulating lytic-phase DNA synthesis. Results presented here establish the temporal accumulation and structure of the smallest replicator transcript, which we call SRT, and identify a single-sequence element essential to replicator function. SRT was detected as early as 2 h after HCMV infection of human fibroblast cells; transcript levels increased by 24 h and continued to increase thereafter. Consistent with its early appearance, treatment of HCMV-infected cells with the viral DNA polymerase inhibitor phosphonoformic acid had no effect on SRT accumulation; however, no SRT was detected in RNA preparations from cycloheximide-treated infected cells. Additional Northern (RNA) analysis localized the 0.2- to 0.25-kb SRT to an apparently noncoding segment near the center of the oriLyt core region. Reverse transcriptase PCR (rapid amplification of cDNA 5' ends [5'-RACE]) identified a single 5' end. In transient-transfection assays, the sequence immediately upstream of SRT functioned as a promoter responsive to HCMV infection when placed upstream of a reporter gene, suggesting that SRT is the product of a discrete transcription unit. RNA ligase-mediated 3'-RACE showed that SRT is not polyadenylated and has heterogeneous 3' ends within a roughly 45-nucleotide window overlapping an oligopyrimidine sequence having counterparts in the lytic-phase replicators of several herpesviruses. Mutation of the oligopyrimidine element showed that it is essential to oriLyt replicator function; it is the only essential single-sequence HCMV oriLyt replicator element described to date. Collectively, the location of SRT near the center of the oriLyt core region, its early expression, its overlapping relationship with a sequence element essential to replicator function, and its similarities to replicator transcripts in other systems suggest the possibility that SRT plays a role in initiating or regulating HCMV lytic-phase DNA synthesis.
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PMID:The variable 3' ends of a human cytomegalovirus oriLyt transcript (SRT) overlap an essential, conserved replicator element. 876 37

Some natural and glycon-modified dNTPs with beta,gamma-pyrophosphate substitution at the triphosphate residue were synthesized and studied to evaluate the effect of these modifications on substrate properties of dNTPs in DNA synthesis catalyzed by human placental DNA polymerases alpha and beta, avian myeloblastosis virus reverse transcriptase, and calf thymus terminal deoxynucleotidyl transferase. Reverse transcriptase proved to be the enzyme least specific to such modifications; the substrate activity of beta,gamma-methylenediphosphonate substituted dTTP and 3'-azido-3'-deoxy-dTTP decreased in the following order: CF2 = CHF > CBr2 > CFMe >> CH2. This order is individual for each DNA polymerase. It is interesting to mention that beta,gamma-CBr2 substituted dTTP is neither a substrate nor an inhibitor of DNA polymerase beta. This specificity distinguishes DNA polymerase beta from other DNA polymerases studied.
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PMID:Effect of triphosphate modifications in 2'-deoxynucleoside 5'-triphosphates on their specificity towards various DNA polymerases. 923 75

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